2021-09-23 02:01:12 +00:00
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---
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title: Fun with Redirection
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date: 2021-09-22
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author: Twi
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tags:
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- shell
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- redirection
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- osdev
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---
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When you're hacking in the shell or in a script, sometimes you want to change
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how the output of a command is routed. Today I'm gonna cover common shell
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redirection tips and tricks that I use every day at work and how it all works
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under the hood.
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Let's say you're trying to capture the output of a command to a file, such as
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`uname -av`:
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```console
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$ uname -av
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Linux shachi 5.13.15 #1-NixOS SMP Wed Sep 8 06:50:21 UTC 2021 x86_64 GNU/Linux
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```
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You could copy that to the clipboard and paste it into a file, but there is a
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better way thanks to the `>` operator:
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```console
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$ uname -av > uname.txt
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$ cat uname.txt
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Linux shachi 5.13.15 #1-NixOS SMP Wed Sep 8 06:50:21 UTC 2021 x86_64 GNU/Linux
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```
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Let's say you want to run this on a few machines and put all of the output into
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`uname.txt`. You could write a shell script loop like this:
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```sh
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# make sure the file doesn't already exist
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rm -f uname.txt
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for host in shachi chrysalis kos-mos ontos pneuma
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do
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ssh $host -- uname -av >> uname.txt
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done
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```
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Then `uname.txt` should look like this:
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```
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Linux shachi 5.13.15 #1-NixOS SMP Wed Sep 8 06:50:21 UTC 2021 x86_64 GNU/Linux
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Linux chrysalis 5.10.63 #1-NixOS SMP Wed Sep 8 06:49:02 UTC 2021 x86_64 GNU/Linux
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Linux kos-mos 5.10.45 #1-NixOS SMP Fri Jun 18 08:00:06 UTC 2021 x86_64 GNU/Linux
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Linux ontos 5.10.52 #1-NixOS SMP Tue Jul 20 14:05:59 UTC 2021 x86_64 GNU/Linux
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Linux pneuma 5.10.57 #1-NixOS SMP Sun Aug 8 07:05:24 UTC 2021 x86_64 GNU/Linux
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```
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Now let's say you want to extract all of the hostnames from that `uname.txt`.
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The pattern of the file seems to specify that fields are separated by spaces and
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the hostname seems to be the second space-separated field in each line. You can
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use the `cut` command to select that small subset from each line, and you can
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feed the `cut` command's standard input using the `<` operator:
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```console
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$ cut -d' ' -f2 < uname.txt
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shachi
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chrysalis
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kos-mos
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ontos
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pneuma
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```
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[It's worth noting that a lot of these core CLI utilities are built on the idea
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that they are _filters_, or things that take one infinite stream of text in on
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one end and then return another stream of text out the other
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end. This is done through a channel called "standard input/output", where
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standard input refers to input to the command and standard output refers to the
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output of the command.](conversation://Mara/hacker)
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[That's a great metaphor, let's build onto it using the `|` (pipe)
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operator. The pipe operator lets you pipe the standard output of one command to
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the standard input of another.](conversation://Cadey/enby)
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[You mentioned that you can pass files as input and output for commands, does
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this mean that standard input and standard output are
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files?](conversation://Mara/happy)
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[Precisely! They are just files that are automatically open for every process.
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Usually commands will output to standard out and some will also accept input via
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standard in.](conversation://Cadey/enby)
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[Doesn't that have some level of overhead though? Isn't it expensive to spin up
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a whole heckin' `cat` process for that?](conversation://Mara/hmm)
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[Not on any decent system made in the last 20 years. This may have some impact
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on Windows (because they have core architectural mistakes that make processes
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take up to 100 milliseconds to spin up), but this is about Unix/Linux. I think
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these should work on Windows too if you use Cygwin, but if you're using WSL you
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shouldn't have any real issues there](conversation://Cadey/coffee)
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Let's say we want to rewrite that `cut` command above to use pipes. You could
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write it like this:
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```sh
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cat uname.txt | cut -d' ' -f2
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```
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[The mnemonic we use for remembering the `cut` command is that fields are
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separated by the `d`elimiter and you cut out the nth
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2021-09-23 02:18:11 +00:00
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`f`ield/s.](conversation://Mara/hacker)
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2021-09-23 02:01:12 +00:00
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This will get you the exact same output:
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```console
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$ cat uname.txt | cut -d' ' -f2
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shachi
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chrysalis
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kos-mos
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ontos
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pneuma
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```
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Personally I prefer writing shell pipelines like that as it makes it a bit
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easier to tack on more specific selectors or operations as you go along. For
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example, if you wanted to sort them you could pipe the result to `sort`:
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```console
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$ cat uname.txt | cut -d' ' -f2 | sort
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chrysalis
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kos-mos
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ontos
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pneuma
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shachi
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```
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This lets you gradually build up a shell pipeline as you drill down to the data
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you want in the format you want.
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[I wanted to save this compiler error to a file but it didn't work. I tried
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doing this:](conversation://Mara/hmm)
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```console
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$ rustc foo.rs > foo.log
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```
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But the output printed to the screen instead of the file:
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```console
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$ rustc foo.rs > foo.log
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error: expected one of `!` or `::`, found `main`
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--> foo.rs:1:5
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1 | fun main() {}
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| ^^^^ expected one of `!` or `::`
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error: aborting due to previous error
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$ cat foo.log
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$
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```
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This happens because there are actually _two_ output streams per program. There
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is the standard out stream and there is also a standard error stream. The reason
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that standard error exists is so that you can see if any errors have happened if
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you redirect standard out.
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Sometimes standard out may not be a stream of text, say you have a compressed
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file you want to analyze and there's an issue with the decompression. If the
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decompressor wrote its errors to the standard output stream, it could confuse or
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corrupt your analysis.
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However, we can redirect standard error in particular by modifying how we
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redirect to the file:
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```console
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$ rustc foo.rs 2> foo.log
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$ cat foo.log
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error: expected one of `!` or `::`, found `main`
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--> foo.rs:1:5
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1 | fun main() {}
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| ^^^^ expected one of `!` or `::`
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error: aborting due to previous error
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```
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[Where did the `2` come from?](conversation://Mara/wat)
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So I mentioned earlier that redirection modifies the standard input and output
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of programs. This is not entirely true, but it was a convenient half-truth to
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help build this part of the explanation.
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For every process on a Unix-like system (such as Linux and macOS), the kernel
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stores a list of active file-like objects. This includes real files on the
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filesystem, pipes between processes, network sockets, and more. When a program
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reads or writes a file, they tell the kernel which file they want to use by
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giving it a number index into that list, starting at zero. Standard in/out/error
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are just the conventional names for the first three open files in the list, like
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this:
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| File Descriptor | Purpose |
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| :------ | :------- |
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| 0 | Standard input |
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| 1 | Standard output |
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| 2 | Standard error |
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Shell redirection simply changes which files are in that list of open files when
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the program starts running.
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That is why you use a `2` there, because you are telling the shell to change
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file descriptor number `2` of the `rustc` process to point to the filesystem
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file `foo.log`, which in turn makes the standard error of `rustc` get written to
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that file for you.
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In turn, this also means that `cat foo.txt > foo2.txt` is actually a shortcut
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for saying `cat foo.txt 1> foo2.txt`, but the `1` can be omitted there because
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standard out is usually the "default" output that most of these kind of
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pipelines cares about.
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[How would I get both standard output and standard error in the same
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file?](conversation://Mara/hmm)
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The cool part about the `>` operator is that it doesn't just stop with output to
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files on the desk, you can actually have one file descriptor get pointed to
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another. Let's say you have a need for both standard out and standard error to
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go to the same file. You can do this with a command like this:
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```
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$ rustc foo.rs 2>&1 > foo.log
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```
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This tells the shell to point standard error to standard out and then the
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combined output to `foo.log`. There's a short form of this too:
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```
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$ rustc foo.rs &> foo.log
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```
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[Where can I expect to use that?](conversation://Mara/hmm)
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[It's a bourne shell extension, but I've tested it in `zsh` and `fish`. You can
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also do `&|` to pipe both standard out and standard error at the same time in
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the same way you'd do `2>&1 | whatever`.](conversation://Cadey/enby)
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That will put standard out and standard error to `foo.log` the same way that
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`2>&1 > foo.log` will. You can also use this with `>>`:
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```
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$ rustc foo.rs &>> foo.log
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$ cat foo.log
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error: expected one of `!` or `::`, found `main`
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--> foo.rs:1:5
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1 | fun main() {}
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| ^^^^ expected one of `!` or `::
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error: aborting due to previous error
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error: expected one of `!` or `::`, found `main`
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--> foo.rs:1:5
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1 | fun main() {}
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error: aborting due to previous error
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```
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[How do I redirect standard in to a file?](conversation://Mara/hmm)
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The answer there is not directly! There is a workaround in the form of a tool
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called `tee` which outputs its standard in to both standard out and a file. For
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example:
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```console
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$ dmesg | tee dmesg.txt | grep 'msedge'
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[ 70.585463] traps: msedge[4715] trap invalid opcode ip:5630ddcedc4c sp:7ffd41f67700 error:0 in msedge[5630d8fc2000+952d000]
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[ 70.702544] traps: msedge[4745] trap invalid opcode ip:5630ddcedc4c sp:7ffd41f67700 error:0 in msedge[5630d8fc2000+952d000]
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[ 70.806296] traps: msedge[4781] trap invalid opcode ip:5630ddcedc4c sp:7ffd41f67700 error:0 in msedge[5630d8fc2000+952d000]
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[ 70.918095] traps: msedge[4889] trap invalid opcode ip:5630ddcedc4c sp:7ffd41f67700 error:0 in msedge[5630d8fc2000+952d000]
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[ 71.031938] traps: msedge[4926] trap invalid opcode ip:5630ddcedc4c sp:7ffd41f67700 error:0 in msedge[5630d8fc2000+952d000]
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[ 71.138974] traps: msedge[4935] trap invalid opcode ip:5630ddcedc4c sp:7ffd41f67700 error:0 in msedge[5630d8fc2000+952d000]
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[ 1169.163603] traps: msedge[35719] trap invalid opcode ip:556a93951c4c sp:7ffc533f35c0 error:0 in msedge[556a8ec26000+952d000]
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[ 1213.301722] traps: msedge[36054] trap invalid opcode ip:55a245960c4c sp:7ffe6d169b40 error:0 in msedge[55a240c35000+952d000]
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[10963.234459] traps: msedge[104732] trap invalid opcode ip:55fdb864fc4c sp:7ffc996dfee0 error:0 in msedge[55fdb3924000+952d000]
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```
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This would put the output of the `dmesg` command (read from kernel logs) into
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`dmesg.txt`, as well as sending it into the grep command. You might want to do
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this when debugging long command pipelines to see exactly what is going into a
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program that isn't doing what you expect.
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Redirections also work in scripts too. You can also set "default" redirects for
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every command in a script using the `exec` command:
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```sh
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exec > out.log 2> error.log
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ls
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rustc foo.rs
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```
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This will have the file listing from `ls` written to `out.log` and any errors
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from `rustc` written to `error.log`.
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A lot of other shell tricks and fun is built on top of these fundamentals. For
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example you can take a folder, zip it up and then unzip it over on another
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machine using a command like this:
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```
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$ tar cz ./blog | ssh pneuma tar xz -C ~/code/christine.website/blog
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```
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This will run `tar` to create a compressed copy of the `./blog` folder and then
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pipe that to tar on another computer to extract that into
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`~/code/christine.website/blog`. It's just pipes and redirection all the way
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down! Deep inside `ssh` it's really just piping output of commands back and
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forth over an encrypted network socket. Connecting to an IRC server is just
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piping in and out data to the chat server, even more so if you use TLS to
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connect there. In a way you can model just about everything in Unix with pipes
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and file descriptors because that is the cornerstone of its design: Everything
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is a file.
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[This doesn't mean it's literally a file on the disk, it means you can _interact
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with_ just about everything using the same system interface as you do with
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files. Even things like hard disks and video cards.](conversation://Mara/hacker)
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Here's a fun thing to do. Using [`curl`](https://curl.se/) to read the contents
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of a URL and [`jq`](https://stedolan.github.io/jq/) to select out bits from a
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JSON stream, you can make a script that lets you read the most recent title from
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my blog's [JSONFeed](/blog.json):
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```sh
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#!/usr/bin/env bash
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# xeblog-post.sh
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curl -s https://christine.website/blog.json | jq -r '.items[0] | "\(.title) \(.url)"'
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```
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At the time of writing this post, here is the output I get from this command:
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```
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$ ./xeblog-post.sh
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Anbernic RG280M Review https://christine.website/blog/rg280m-review
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```
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What else could you do with pipes and redirection? The cloud's the limit!
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Thanks to violet spark for looking over this post and fact-checking as well as
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helping mend some of the brain dump and awkward wording into more polished
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sentences.
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